Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress 2023 EHA Congress 2023 ASCO Annual Meeting
Clinical Collections
Advances in Alzheimer’s

At a glance: The ONWARDS insulin icodec trials

A round-up of the ONWARDS phase 3 clinical trials evaluating the novel weekly insulin icodec in people with diabetes.
ADVANCED SEARCH
Log in
Top
International Archives of Occupational and Environmental Health
Published in: International Archives of Occupational and Environmental Health 2/2015

01-02-2015 | Original Article

High-frequency hearing thresholds: effects of age, occupational ultrasound and noise exposure

Authors: Isabella Maccà, Maria Luisa Scapellato, Mariella Carrieri, Stefano Maso, Andrea Trevisan, Giovanni Battista Bartolucci

Published in: International Archives of Occupational and Environmental Health | Issue 2/2015

Login to get access

Abstract

Purpose

It has been suggested that high-frequency audiometry (HFA) could represent a useful preventive measure in exposed workers. The aim was to investigate the effects of age, ultrasound and noise on high-frequency hearing thresholds.

Methods

We tested 24 industrial ultrasound-exposed subjects, 113 industrial noise-exposed subjects and 148 non-exposed subjects. Each subject was tested with both conventional-frequency (0.125–8 kHz) and high-frequency (9–18 kHz) audiometry.

Results

The hearing threshold at high frequency deteriorated as a function of age, especially in subjects more than 30 years old. The ultrasound-exposed subjects had significantly higher hearing thresholds than the non-exposed ones at the high frequencies, being greatest from 10 to 14 kHz. This hearing loss was already significantly evident in subjects with exposure <5 years and increased with years of exposure and advancing age. The noise exposure group had significantly higher hearing thresholds than the non-exposed group at the conventional frequencies 4 and 6 kHz and at the high frequency of 14 kHz. After stratification for age, there was a significant difference between the two groups at 9–10 and 14–15 kHz only for those under 30 years of age.

Conclusion

Multivariate analysis indicated that age was the primary predictor, and noise and ultrasound exposure the secondary predictors of hearing thresholds in the high-frequency range. The results suggest that HFA could be useful in the early diagnosis of noise-induced hearing loss in younger groups of workers (under 30 years of age).
Literature
Acton WI (1973). The effects of airborne ultrasound and near ultrasound. International Congress on Noise as a Public Health problem, Dubrovnik, 14–18 May, 349–359
Acton WI (1975) Exposure criteria for industrial ultrasound. Ann Occup Hyg 18:267–268CrossRef
Acton WI (1983) Exposure to industrial ultrasound: hazards, appraisal and control. J Soc Occup Med 33:107–113CrossRef
Acton WI, Carson MB (1967) Auditory and subjective effects of airborne noise from industrial ultrasonic sources. Brit J Industr Med 24:297–304
Acton WI, Hill CE (1977) Hazards of industrial ultrasound. Protection 14(19):12–17
Ahmed HO, Dennis JH, Badran O, Isamil M, Ballal SG, Ashoor A, Jerwood D (2001) High frequency (10–18 kHz) hearing thresholds: reliability, and effects of age and occupational noise exposure. Occup Med 51(4):245–258CrossRef
Allen CH, Frings H, Rudnick I (1948) Some biological effects of intense high-frequency airborne sound. J Acoust Soc Amer 20–1:62–65CrossRef
Bartsch R, Dieroff HG, Brueckner C (1989) High frequency audiometry in the evaluation of critical noise intensity. Int Arch Occup Environ Health 61(5):347–351CrossRef
Crawford AE (1995) Ultrasonic Engineering. Butterworth, London
Dieroff HG (1982) Erfahrungen mit der Hochfrequenzaudiometrie und ihre einsatzmoglichkeit. Laryngol Rhinol 9:739
Dobroserdov VK (1967) The effects of low-frequency ultrasound and high-frequency sound on exposed workers. Abstract in Occup Saf Health 5:658
Dreschler WA, Hulst RJAM, Tange RA, Urbanus AM (1985) The role of high frequency audiometry in early detection of ototoxicity. Audiology 24:387–395CrossRef
Fausti SA, Frey RH, Erickson DA, Rappaport BZ, Clearly EJ (1979) A system for evaluating auditory function from 8,000 to 20,000 Hz. J Acoust Soc Am 66:1713–1718CrossRef
Fausti SA, Erickson DA, Frey RH, Rappaport BZ (1981a) The effects of impulsive noise upon human hearing sensitivity (8 to 20 kHz). Scand Audiol 10:21–29CrossRef
Fausti SA, Erickson DA, Frey RH, Rappaport BZ (1981b) The effects of noise upon human hearing from 8,000 to 20,000 Hz. J Acoust Soc Am 69:1342–1346CrossRef
Frank T (2001) High frequency (8 to 16 kHz) reference thresholds and intrasubject threshold variability relative to ototoxicity criteria using a Sennheiser HDA 200 earphone. Ear Hear 22(2):161–168CrossRef
Gauz MT, Smith MM, Hinkle RR (1986) The simplifield HF E-800 high frequency audiometer: clinical application. J Aud Res 26:121–134
Grezesik J, Pluta E (1983) High frequency hearing risk of operators of industrial ultrasonic devices. Int Arch Occup Environ Health 53:77–88CrossRef
Grezsik J, Pluta E (1986a) Dynamics of high frequency hearing loss of operators of industrial ultrasonic devices. Int Arch Occup Environ Health 57:137–142CrossRef
Grezsik J, Pluta E (1986b) High-frequency noise induced hearing loss: a field study on the role of intensity level and accumulated noise dose. Int Arch Occup Environ Health 57:127–136CrossRef
Hallmo P, Borchgrevink HM, Mair IWS (1995) Extended high frequency thresholds in noise-induced hearing loss. Scand Audiol 24:47–52CrossRef
IRPA Draft (1981) Guidelines on limits of human exposure to airborne acoustic energy having one-third octave bands with mid frequencies from 8 to 50 kHz. International Radiation Protection Association, International Non-Ionizing Radiation Committee (IRPA/INIRC)
Laukli E, Mair IW (1985) High frequency audiometry: normative studies and preliminary experiences. Scand Audiol 14:151–158CrossRef
Lee FS, Matthews LJ, Dubno JR, Mills JH (2005) Longitudinal study of pure tone thresholds in older persons. Ear Hear 26:1–11CrossRef
Lopponen H, Sorri M, Bloigu R (1991) High frequency air conduction and electric bone-conduction audiometry-age and sex variations. Scand Audiol 20:181–189CrossRef
Mehrparvar AH, Mirmohammadi SJ, Ghoreyshi A, Mollasadeghi A, Loukzadeh (2011) High frequency audiometry: a means for early diagnosis of noise-induced hearing loss. Noise Health 13(55):402–406CrossRef
Morton LP, Reynolds L (1991) High frequency thresholds: variation with age and industrial noise-exposure. S Afr J Commun Disord 38:13–17
Northern JL, Downs MP, Rudmose W, Glorig A, Fletcher JL (1972) Recommended high frequency audiometric threshold levels (8,000–18,000 Hz). J Acoust Soc Am 52:585–595CrossRef
Osterhammel D (1979) High frequency audiometry and noise -induced hearing loss. Scand Audiol 8:85–90CrossRef
Osterhammel D (1980) High frequency audiometry: clinical aspects. Scand Audiol 9:246–249
Osterhammel D, Osterhammel P (1979) High frequency audiometry: age and sex variations. Scand Audiol 8:73–81CrossRef
Riga M, Korres G, Balatsouras D, Korrws S (2010) Screening protocols for the prevention of occupational noise-induced hearing loss: the role of conventional and extended high frequency audiometry may vary according to the years of employment. Med Sci Monit 16(7):CR352–CR356CrossRef
Rosen S, Plester D, El-Mofty A, Rosen HV (1964) High frequency audiometry in presbycusis: a comparative study of the Mabaan tribe in Sudan with urban populations. Arch Otolaryngol 79:34–48CrossRef
Sataloff J, Vassalo L, Menduke H (1967) Occupational hearing loss and high frequency thresholds. Arch Environ Health 14:832–836CrossRef
Sataloff J, Sataloff RT, Menduke H, Yerg R, Gore RP (1984) Hearing loss and intermittent noise exposure. J Occup Med 26(9):649–656
Silvestri F, Arena G, Predonzani A, Cardini G, Palma G (2001) Effects of ultrasonic hearing. G Ital Med Lav Erg 23–3:332
Skillern CP (1965) Human response to measured sound pressure levels from ultrasonic devices. Am Ind Hyg Ass J 26:132CrossRef
Smith PE (1967) Temporary Threshold shift produced by exposure to high-frequency noise. Am Ind Hyg Ass J 28:447CrossRef
Somma G, Pietroiusti A, Magrini A, Coppetta L, Ancona C, Gardi S, Messina M, Bergamaschi A (2008) Extended high frequency audiometry and noise induced hearing loss in cement workers. Am J Ind Med 51:452–462CrossRef
Sulkowski WI, Pawlaczyk Luszczynska M (1994) Evaluation of occupational exposure to noise from the hearing conservation point of view. Int J Occup Med Environ Health 7:167–175
World Health Organization (1977) Cap. “Ultrasound” in manual on health aspects of exposure to non-ionizing radiation. Copenaghen
World Health Organization (1982) Ultrasound. Environmental Health Criteria 22
Metadata
Title
High-frequency hearing thresholds: effects of age, occupational ultrasound and noise exposure
Authors
Isabella Maccà
Maria Luisa Scapellato
Mariella Carrieri
Stefano Maso
Andrea Trevisan
Giovanni Battista Bartolucci
Publication date
01-02-2015
Publisher
Springer Berlin Heidelberg
Published in
International Archives of Occupational and Environmental Health / Issue 2/2015
Print ISSN: 0340-0131
Electronic ISSN: 1432-1246
DOI
https://doi.org/10.1007/s00420-014-0951-8

Other articles of this Issue 2/2015

International Archives of Occupational and Environmental Health 2/2015 Go to the issue

Original Article

Integrin α E β 7 (CD103) expression in bronchoalveolar lymphocytes of patients with hypersensitivity pneumonitis

Erratum

Erratum to: Clinically assessed consequences of workplace physical violence

Original Article

Changes in psychosocial work factors in the French working population between 2006 and 2010

Original Article

Work-related symptoms in indoor environments: a puzzling problem for the occupational physician

Original Article

Extremely low-frequency magnetic field exposure, electrical shocks and risk of Parkinson’s disease

Original Article

Clinically assessed consequences of workplace physical violence